JP2007528188A - Battery recharging device - Google Patents

Abstract

  The battery recharging device (6), which can also be used as a display device (5) for blister packaged battery packs at the point of sale, is a series of pedestals or housing structures for connection and linking of battery packs (5) on sale ( 2, 18) including support (1, 17, 51). A pair of terminals (7, 8, 80) electrically connected to the electrodes (21) of each battery (6) included in the blister packaging (5) charge and / or charge the battery charge built into the device. Alternatively, contact is possible from the outside in order to obtain an electrical connection with the maintenance circuit.

Description

The present invention relates to a battery recharging device.
More particularly, the present invention relates to a charging device for a rechargeable battery that can also be used as a display device for a blister packaged battery pack (blister packaging).

Rechargeable batteries are known to have the disadvantage of being able to store energy for a relatively short period of time.
The typical self-discharge time for Ni-Cd or Ni-MH batteries is actually several months and rarely extends to 12 months under high temperature storage conditions.
Given the fact that the time required to provide batteries for some of the sales points is becoming increasingly limited in current commodity distribution systems, end customers are almost always empty. You are forced to purchase batteries and therefore need to be recharged before using them.

In order to eliminate the limitations related to the above-mentioned requirements, the object of the present invention is to purchase a fully charged battery and to charge the battery directly at the point of sale at the point of purchase. It is an object of the present invention to provide a rechargeable battery charging device that can check the power supply and recharge if possible, thus making the charged battery constantly available to customers.
The present invention is particularly useful for the purchase of mobile phones, radios, portable hi-fi devices, digital cameras, and all consumer electronic devices that are currently available for purchase and can be used directly.

It is a further object of the present invention to provide a battery recharging device that can be used directly as a display device for blister packaged battery packets at a point of sale.
Another object of the present invention is to provide a battery recharging device that allows easy handling of battery charging and recharging maintenance operations directly at the point of sale.
Yet another object of the present invention is to enable electrical contact to the packaged battery without the need to open the blister packaging, making a “fresh” product with all the energy available from the start. The object is to provide an inexpensive battery recharging device that can be sold to customers.

A further object of the present invention is to allow the supply of charged batteries, used in publicly open locations, and allowing customers to select and remove one or more of the blister packagings. An object of the present invention is to provide a battery recharging device.
Another object of the present invention is to present a battery recharging device that is easy to manufacture and economical without the use of complex or costly techniques.

These and other objects are achieved by providing a battery recharging device according to claim 1. Claim 1 should be referred to for the sake of brevity.
In the first embodiment of the present application, the recharging device comprises a support including a series of pedestals or containment structures for connecting and linking a battery pack for sale, a feeder for connecting to a 230 volt power source, Advantageously, it comprises a base with a recharging circuit and a specific housing structure for temporarily mounting the blister packaging of the battery whose charge level is to be checked.

Another embodiment of the recharging device is substantially
-Rechargeable battery blister packaging charger,
-A selector and automatic feeder for blister packaging of charged batteries;
-Consists of an automatic payment system.
In this case, the blister packaging uses a series of push buttons located outside the recharging circuit and the recharging device, in a collective device that includes an automatic selection and supply means for the blister packaging selected by the user. included.

The present invention allows a user to be completely autonomous when the device is also equipped with an automatic payment mechanism.
The collective device can be filled with an empty battery blister packaging by the store clerk, and the collective device automatically charges the packaged battery and only after charging has been suppressed and activated. Can supply them.
Further features and advantages of the battery recharging device according to the present invention will become more apparent from the following description and accompanying drawings.

  Reference is made in particular to FIGS. 1 and 2, which represent a preferred and illustrative first embodiment. The battery recharging device, which can also be used as an exhibition element at various points of sale, needs to be charged, kept charged and sold, preferably a blister packaged battery packet 5 (FIG. 2) A front support 1 comprising a series of pedestals or containment structures and attached to a mounting base 9, generally and generally designated 2 (FIG. 1), for connecting and / or linking Including.

The recharging device also includes a feed line for connection to a 230V power source. The mounting base 9 includes a series of suitable charging circuits, and there can also be a suitable containment structure 4 that can be used for packaging of the battery 5 or the temporary mounting of the pack whose charge level is to be checked.
The battery pack or blister packaging 5 is preferably manufactured to group and include four Ni-MH batteries of the “size AA” type, eg 2000 mAh, and included in the blister packaging 5 One of the containment structures indicated by reference numeral 2 intended to be connected to a specific charge and charge maintenance circuit included in the base 9 so that the charge of 6 is charged and maintained until it is sold; Configured to allow to be linked.

On the other hand, each pack of batteries 5 has all the batteries 6 contained therein (eg, four batteries for each pack of batteries as shown in FIG. 2) connected in series, the first and last Only the two terminals 7 and 8 located corresponding to the battery 6 can be contacted for connection with the recharging device.
Terminals 7 and 8 are located inside each blister packaging 5 for safety, and therefore, by casually placing the battery pack on a metal surface or by placing the battery pack in a pocket, for example, It is impossible to create a short circuit at the terminals by contact with a set of keys.
For this reason, the recharging device, which can also be used as a display device at the point of sale, hangs the blister packaging, recharges and maintains the charge level, the terminals 7 of the blister packaging 5, Each rechargeable receiving structure 2 is manufactured to have a corresponding pair of terminals suitable for being inserted into the rechargeable device 8.

Furthermore, when the customer purchases the battery pack 5, after opening the blister packaging, the batteries 6 can be separated from each other and used freely.
In fact, each containment structure 2 is connected to a section of the low voltage charging circuit, and each charging circuit automatically recognizes the insertion of the battery pack 5 and thereby the pack 5 on the front side 1 of the charging device. The charging cycle is activated at the moment of insertion. Each charging section is a fast charging type, that is, capable of charging the battery pack 5 in about one hour. After this fast charge period, this section automatically enters charge maintenance mode by supplying a small amount of charge current on the order of 1/20 of the nominal charge current.

Each containment structure can have an LED signal diode that indicates when the maximum charge level of the corresponding battery pack 5 has been reached, so that the salesperson knows at any time which pack 5 is ready for sale. it can.
In this way, the salesperson can always have a certain number of available battery packs or packaging 5 every hour equal to the number of rechargeable containment structures 2 present in the charger-display fixture device.

For example, if a charger-display fixture device can accommodate a number of batteries equal to 50 packs or blister packaging, an average of 50 charged batteries for sale each hour As soon as the pack 5 is available and the battery pack 5 is sold, the salesperson can fill the uncharged battery pack. (In any case, preparation takes about an hour).
Alternatively, it is possible to produce the most economical model of a recharging device, as shown in FIG. Thus, each charging section is not a fast charging type and has the maximum amount of charge that can typically be reached in 12 hours.
In this case, the recharging device can be filled with the battery pack 5 by the sales capacity on the night before the sale. The number possible daily for sale is at least equal to the number of containment structures 2 envisaged on the front side 1 of the device.

As already defined, the charging device and display device may eventually include a special handling 4 for checking the charge level of each pack of batteries 5.
For this tester, there are three LED diodes (red, yellow, and / or green), each of which can indicate a low charge level, an intermediate charge level, and a high charge level. In this way, the salesperson can check the unknown state of the battery pack 5 at any time. Also, the purchaser himself can check the charge level of each packaging of the battery 6 being sold.
With particular reference to FIGS. The blister packaging of the battery 6 is shown in several forms for the most commonly used type of battery.

In particular, FIGS. 3 and 3A show a blister packaging 5 including four AA type 1.5 volt batteries 6. 4 and 4A show a blister packaging 5 including four AAA type 1.5 volt batteries 6. 5 and 5A show a blister packaging 5 that includes a single 6-9 volt battery.
In any case, each battery packaging or pack 5 includes a printed circuit board 40. This substrate has the battery 6 placed on it and shows the manufacturer's display, the registration number of the battery 6 itself, and instructions for use.
The terminals of the battery 6 are connected to each other by a metal spring that forms an electrical connection. The entire unit is usually made of a plastic heat-shrinkable material and is wrapped in a transparent sheath or lining 60 that blocks all elements and solidifies the entire unit.

In a particular form of AA type battery (FIGS. 3 and 3A), the batteries 6 described above are connected in series by a spring 70, each of which has a positive terminal on one battery 6 and a negative terminal on an adjacent battery 6. Connect to the terminal.
A further spring 80 contacts the end terminals (positive and negative) in series, allowing them to be contacted by one wing of the card 40 of the blister packaging 5.
Above this wing there are two holes, indicated at 90, on the heat-shrinkable plastic material, corresponding to the portion of the spring 80 that is coplanar with the wing itself.
In this way, a suitable electrical contact system allows the battery 6 to be contacted through the hole 90 for charging, recharging and maintenance operations.

The cases illustrated in FIGS. 4-4A and 5-5A are each completely similar, but differ only with respect to the specific type of battery being charged.
In particular, FIGS. 4-4A illustrate an AAA type battery 6 while FIGS. 5-5A illustrate a battery 6 consisting of a single 9 volt element.
FIG. 6 shows another preferred embodiment for explaining a battery recharging device according to the present invention of the fast charging and malfunction prevention type.
In particular, it is a flat form of charger 17 that can also have an accessory function of the display device of blister packaging 5 (e.g., inside a sales point) and has a series of slits 18 within this slit. In addition, the lower wing portion of each card 40 of each blister packaging 5 can be inserted.

The charger 17 in single or multiple versions includes a series of faces connected to the vertical support structure by brackets 19 and is also conveniently used as a display device for blister packaging 5 at the point of sale and charged to the customer The battery 6 can always be supplied.
In each slit 18 of the charger 17, one of the three forms of blister packaging 5 can be inserted differently for AA or AAA type 1.5 or 9 volts. As clearly shown in FIG. 6, various packagings 5 during insertion are shown.
The slits 18 have the same length as the lower wing of each blister packaging 5, and all the blister packagings 5 can in particular have the same length.

As clearly shown in FIG. 7, the external contacts 80 made of springs 80 are in phase with each other in terms of length so that they are preferably placed on the lower wing of the card 40 (FIG. 7). Compare the distances indicated by D1, D2 and D3 of 7), three forms of blister packaging 5 are manufactured.
In this way, when each blister packaging 5 is inserted into the slit 18, it is determined by the length of the slit 18 itself at the pushed-in position, causing contact with the correct internal terminal of the charging device 17, which is necessary. Allows the charge level to be automatically selected corresponding to the specific type of battery 6 to be charged.

Thus, it is possible to use a single charger or charger 17 for recharging and maintaining the main types of batteries 6 currently in use.
8, 8A and 8B show in detail a first embodiment of the blister packaging electrical connection system inside the slit 18 of the charger 17. FIG.
In particular, FIG. 8 shows a cross-sectional view of the charging device 17 of FIG. 6, in which each packaging 5 is inserted into each slit 18, FIG. 8A is a detailed enlarged view of C of FIG. Is the mirror image for FIG. 8A.
In this first embodiment, the electrical connection system uses a metal ball pressed by a spring to enable a reliable electrical connection between the supply port of the charging circuit and the contacts of the packaging 5 I'm thinking about doing that.

The metal ball 27 pressed by the spring 28 ensures contact with the spring 80 incorporated in the blister packaging 5 and (depending on the type of battery 6 being charged) a series of 1.5 volt batteries. Alternatively, it ensures contact with the positive or negative terminal 21 of the end cell consisting of a single 9 volt battery.
Another spring 29 used for structural simplification makes electrical contact with the printed circuit 30. On this printed circuit, the electrical component 20 of the charger 17 is assembled.
This electrical connection system was once inserted into the slit 18 by a small step located between the thermoplastic lining 60 of the blister packaging 5 and the metal contact 80 (contrast with FIG. 8B for more clarity). The advantage of the very good mechanical holding force of the blister packaging 5 at the time and the advantage of obtaining a good self-cleaning electrical contact by scraping the sphere 27 on the contact 80 are combined.

FIG. 9 illustrates a second possible embodiment of the electrical connection between the blister packaging 5 and the charging device 17.
In this case, the blister packaging 5 which can be used more conveniently for AA or AAA type 1.5 volt batteries and 9 volt batteries can have spring contacts 80. A hole 90 is located in the transparent plastic lining 60 corresponding to the electrical terminal of the battery 6.

FIG. 9 shows an electrical contact system for AA or AAA type 1.5 volt batteries. Electrical contacts are obtained by spring nails 38 which press the electrical terminals of the battery 6 through holes located on the transparent lining 60.
The blister packaging 5 is also restrained by a notch 42 that engages the notch of the card 40 on the back of the packaging 5. The jacket of the spring nail 38 is connected to the printed circuit 30 that houses the electrical component 20 of the charging device 17 by an electrical wire 40A.
FIG. 10 illustrates three possible electrical connection systems between the blister packaging 5 and the charger-display fixture device 17.

Blister packaging 5 (in the case shown in the embodiment of FIG. 10, this is a blister packaging 5 comprising four AA type 1.5 volt batteries 6 with spring contacts 80 underneath) According to this embodiment, for example, a small inductor 44 having a ferrite core and a rectifier diode 45 are incorporated.
The blister packaging 5 also comprises a suitable guide wing 46 for insertion into the charging device 17, in this case a suitable slit 18 in which the guide is mounted.
Further, a C-shaped magnetic circuit 47 having a magnetic pole extension portion in which a coil 48 is wound is accommodated in the charging device 17.
When the blister packaging 5 is inserted into the slit or housing structure 18, the inductor 44 is inserted between the magnetic pole extensions of the magnetic circuit 47 to form an inductive magnetic coupling between the inductor 44 and the coil 48.

In this way, the electrical energy supplied by the AC generator 49 is transferred to the circuit of the blister packaging 5 by the inductor 44, and the energy stably rectified by the diode 45 charges the battery 6.
Although FIG. 10 illustrates a blister packaging 5 that includes four AA type batteries 6, the blister packaging for another battery model can also be shown completely analogously.
In this case, the appropriate charging current is determined by varying the number of coils of inductor 44, differing for each different type of battery.
In this way, the charging device 17 has the electrical elements 47, 48, 49 and remains the same, universal and used in conjunction with the other electrical contact systems described, all blister packaging models 5 The blister packaging 5 itself is sized to take the required energy from the charging display device 17, so what type of battery 6 is used at a certain point in time? Does not require any measures to decide.

FIGS. 11A, 11B and 12 show another possible solution of the battery recharging device which is the object of the present invention. The blister packaging 5 is inserted into the collective panel 51 for the automatic removal of the blister packaging 5 to be supplied after it has been properly selected by the charging device 17 of the battery 6 and the user. Including a series of mechanisms.
The entire unit is accommodated in the outer safety case 100. This case includes a controller panel 51, a payment device 15, and an electrical panel 50, which controls the selection and supply of each blaster packaging 5 as the battery 6 is charged.
The payment device 15 includes a coin insertion slit 10, a display device 12 for counting inserted coins, and three buttons 11 for selecting a desired blister packaging 5. In this regard, as the type of the battery 6, an AA or AAA or 9 volt type battery can be preferably used.

The control panel 51 is actually configured to include three blister packagings 5 shown in FIG. 11A, indicated at 20, 13, and 14, respectively. Each packaging may include separately AA, AAA and / or 9 volt type rechargeable batteries 6.
The blister packaging 5 is introduced into a suitable rechargeable slit 18 in the controller panel 51 and held in a horizontal position by the shelf 15.
Each slit 54 recognizes the type of packaging 5 that the charging device 17 of the battery 6 has automatically inserted, so that the blister package includes any rechargeable battery type (AA, AAA, 9 volts). 5 may be included. In this way, it is advantageous that the salesperson does not have to pay any particular attention during the charging operation of the charging device.

In order to remove the blister packaging 5 containing the desired type of battery 6, a coin needs to be inserted into the slit 10 of the payment device 15. This device allows selection of the push button 11 of the blister packaging 5. Packaging is located in each row 20, 13 or 14 of the collective panel 51.
When the user selects a blister packaging 5 in row 20, 13 or 14 by selecting one of the buttons 11, the logic is activated and the battery with the highest charge among the preselected ones. Select packaging 5 containing 6, activate the associated discharge device, drop the packaging itself onto the lower inner surface (positions indicated by 61 and 62 in FIG. 11B) and open the window 69 The packaging can be removed from the bottom inner surface.

FIG. 12 shows in detail the removal and contact device for charging the battery 6 contained in the heat-shrinkable plastic lining 60 of the packaging 5.
In particular, in FIG. 12, the pin 91 of the discharge device is shown in a rest position maintained by a spring 92.
When a current of suitable polarity is applied to the coil 93, the pulling force of the pin 91 and the compression of the spring 92 are triggered. This results in the expulsion of the blister packaging 5 in the right direction and the resulting fall onto the collecting surface located under the panel 51.
By blocking the current flow, the spring 92 returns the pin 91 to the rest position, allowing a new blister packaging 5 to be inserted.

The stainless steel ball 94 associated with the spring 95 is in electrical contact with the terminal 80 of the blister packaging 5 for charging the battery 6 contained therein. In this way, when the packaging 5 is in the charging position, the electrical connection with the circuit of the charging device 17 is activated by means of a spring 96.
The assembly panel 51 is filled from the front window. When the window is opened, it becomes accessible to the charging slit 18 and allows the blister packaging 5 to be introduced into the various charging positions.
13A, 13B, 14A, 14B, 15 and 16 illustrate a further variation of the battery recharging device which is the object of the present invention.
This technical solution uses a blister packaging configuration 5 as shown in FIG. In particular, FIG. 15 shows a blister packaging 5 including an AA type rechargeable battery. However, similar solutions are possible for AAA and 9 volt type rechargeable battery geometries not shown.

In this case, the blister packaging 5 is manufactured by two symmetrical shells 23, 24 that mechanically hold the batteries but can open the eight terminals and charge each battery 6 independently.
With particular reference to FIGS. 13A and 13B, a battery recharging device according to the present invention includes three rows 16, 26, 37 contained within an outer case 35, each row including a different type of blister packaging 5. .
Corresponding to each row 16, 26, 37, the blister packaging 5 is stacked on top of each other on the horizontal side of the packaging, as better shown in FIGS. 14A, 14B. These FIGS. 14A and 14B also illustrate a spherical contact and spring 29 for charging the battery 6.
The payment device of the blister packaging 5 controlled by the control logic 31 is similar to that described above, and the slit 32 for coin insertion, the visual display panel 33, and the selection push-button 34 are particularly used.

After the payment is valid, a blister packaging 5 release order is generated. Pressing one of the push buttons 34 results in the motor 28 being activated (shown in detail in connection with row 16 in FIGS. 14A and 14B).
As the motor 28 rotates, the rack pusher 27 is advanced downward with a defined travel equal to the thickness of the blister packaging 5, thus pushing the spring 43 to release the lower packaging 5 and the collection surface 36. It is dropped (position shown generally at 22 in FIGS. 13B, 14A and 14B), which is located corresponding to the window 41.
At the same time, all stacks of the blister packaging 5 located at the top are moved one position toward the lower surface, so that each packaging 5 receives power from the spherical contact 29 on the lower surface. , The state of charge is maintained.
Each row 16, 26, 37 includes a charging circuit (not shown) corresponding to the spring contact 29, preferably in electrical contact with the spring 29 to maintain the charge inside the battery 6.

Each row 16, 26, 37 is filled from the front window of the case 35. The front window, when opened, allows access to the three rows 16, 26, 37 and allows each packaging 5 to be inserted into various charging positions.
Finally, an alternative device for blister packaging 5 as shown above is shown in FIG.
In particular, a pusher 27B that can be conveniently moved by a belt 26B activated by a motor 28B is used to reduce the vertical obstruction of the rod or rack 27 used in the version according to FIGS. 14A and 14B. Has been.
The features of the battery recharging device, as well as the advantages, which are the object of the present invention, are clear from the above description.
Finally, it is clear that various other variations can be added to the battery recharging device in question, all of which are included in the novel principles inherent in the inventive idea. It will be appreciated that in the actual embodiments of the invention, the details and dimensions shown may be varied as required and replaced by other equivalent alternatives.

The front view of 1st Embodiment of the battery recharging apparatus of the aggregate | assembly form according to this invention which can be used also as a display instrument of the blister packaged battery in a sales location. FIG. 2 is a front view of a blister packaged battery pack of a battery that can be used in the recharging device in the assembled form of FIG. 1 is a front view of a blister packaging for a battery suitable for use in a charge recovery and maintenance device according to the present invention that can be used in a first form of battery. FIG. 1 is a perspective view of a blister packaging for a battery suitable for use in a charge recovery and maintenance device according to the present invention that can be used in a first form of battery. FIG. FIG. 3 is a front view of a blister packaging for a battery suitable for use in a charge recovery and maintenance device according to the present invention that can be used in a second form of battery. FIG. 3 is a perspective view of a blister packaging for a battery suitable for use in a charge recovery and maintenance device according to the present invention that can be used in a second form of battery. FIG. 4 is a front view of a blister packaging for a battery suitable for use in a charge recovery and maintenance device according to the present invention that can be used in a third form of battery. FIG. 5 is a perspective view of a blister packaging for a battery suitable for use in a charge recovery and maintenance device according to the present invention that can be used in a third form of battery. The expansion perspective view of 2nd Embodiment of the battery recharging apparatus according to this invention. The combination of the main form of blister packaging and the associated battery used is shown in the contact phase that allows the battery form to be automatically selected when the packaging is inserted into the recharging device of the present invention. Indicates displacement. Fig. 7 shows in detail a first embodiment of a contact system that allows an electrical connection between the recharging circuit and the battery packaging contacts in the recharging device of Fig. 6 according to the present invention; Fig. 7 shows in detail a first embodiment of a contact system that allows an electrical connection between the recharging circuit and the battery packaging contacts in the recharging device of Fig. 6 according to the present invention; Fig. 7 shows in detail a first embodiment of a contact system that allows an electrical connection between the recharging circuit and the battery packaging contacts in the recharging device of Fig. 6 according to the present invention; 8 shows another possible embodiment of an alternative electrical contact system to that shown in FIGS. 8, 8A, 8B according to the present invention. 8 shows another possible embodiment of an alternative electrical contact system to that shown in FIGS. 8, 8A, 8B according to the present invention. FIG. 6 is a front view of a third embodiment of a blister packaged battery recharge device suitable for automatic packaging distribution according to the present invention. The side view of the charging device according to FIG. FIG. 12 is an enlarged detailed cross-sectional view of the charging and discharging device (supply) of each battery blister packaging present in the battery recharging device according to FIGS. 11A and 11B according to the present invention. FIG. 11B is a front view of a variation of the battery recharging device according to FIGS. 11A and 11B according to the present invention. The side view of the battery recharging apparatus according to FIG. FIG. 14 is an enlarged detailed front view of the blister packaging charging and supply mechanism present in the recharging device according to FIGS. 13A and 13B. FIG. 14 is an enlarged detailed side view of the blister packaging charging and supply mechanism present in the recharging device according to FIGS. 13A and 13B. FIG. 14 is an enlarged perspective view of another embodiment of a rechargeable blister packaging that can be used in a battery recharging device according to FIGS. 13A and 13B. FIG. 14 is a cross-sectional view of a technical solution that can be used in a battery recharging device according to FIGS. 13A and 13B.

Claims (19)

  A recharging device for the battery (6) that can also be used as a battery pack or packaging (5) display device at the point of sale, a pedestal for insertion and / or linking of the battery pack (5) being sold or At least one support element (1, 17, 51) comprising a containment structure (2, 18) and electrically connected to said pedestal or containment structure (2, 18) of the charging device; A recharging device (6) comprising means (20, 30) for maintenance.   Battery recharging device (6) according to claim 1, comprising at least one suitable housing structure (4) that can be used for temporarily mounting one of the battery packs (5) whose charge level is to be checked. .   Each packaging (5) of the battery (6) comprises a series of batteries (6) connected in series with each other, wherein at least two terminals (7, 8, 80) of said packaging are used for charge recharging and 2. The battery refilling device (6) according to claim 1, wherein the battery refilling device (6) is accessible from outside the packaging (5) for connection to the means (20, 30) for maintenance.   The means for recharging and maintaining the charge automatically recognizes the housing structure of at least one battery pack (5) by the control logic (50) and is in the at least one pedestal (2, 18). The battery recharging device (6) according to claim 1, wherein the battery recharging device (6) immediately activates a charging cycle of the housing structure of the battery pack (5).   The housing structure or pedestal (2, 18) is suitable for each of the housing structure or pedestal (2, 18) to indicate that the charge level and / or maximum charge level of the inserted battery pack (5) has been reached. The battery recharging device (6) according to claim 1, further comprising a signal means.   In order to be able to automatically select the required charge level corresponding to the form of the battery (6) to be charged, the two terminals (7, 8, 80) are at different distances (D1, D2, D3). The battery recharging device (6) according to claim 3, which is located at.   The at least one support element (1, 17, 51) is pushed by at least one elastically configured first conductor element (28) according to each pedestal or containment structure (2, 18). Comprising a metal body, which ensures electrical contact with at least two terminals (7, 8, 80) of the battery pack (5), wherein at least one second conductor element (29) The battery recharging device (6) according to claim 3, wherein the battery recharging device (6) creates electrical contact with the means for recharging and / or maintaining the charge.   At least one of the terminals (7, 8, 80) is in contact with at least one spring nail (38), which is electrically connected to the means for recharging and / or maintaining the charge. The battery recharging device (6) according to claim 3, which is in contact.   The battery packaging or pack (5) is held in position by a notch cross-sectional shape (42) of the at least one support element (1, 17, 51), the notch being located in the packaging 5 The battery recharging device (6) according to claim 8, wherein the battery recharging device (6) is engaged with the notch.   The battery packaging or pack (5) has at least one guide wing (46) for insertion into the pedestal and / or the hanger (2, 18) and has at least one inductor element ( 44) and / or at least one rectifier diode (45), said at least one support element (1, 17, 15) comprising at least one magnetic circuit (47) having a pole extension, At least one coil (48) is wound on the extension and the magnetic pole of the magnetic circuit (47) when the packaging (5) is inserted into the corresponding pedestal and / or housing structure (2, 18). The inductor element (44) inserted between the extensions forms an inductive magnetic coupling with the coil (48) and is supplied by an alternating current generator (49) and the diode The battery recharging device (6) according to claim 3, wherein the electric energy rectified by (45) is transferred to the packaging (5).   The selection is validated by the user by means (10, 11, 12, 32, 33, 34) where at least one support element (1, 17, 51) is located on the outer case (35) of the recharging device The battery recharging device (6) according to claim 1, comprising at least one automatic selection and supply means of the battery pack (5) at the time.   Said at least one support element (1, 17, 51) comprises a series of rows (13, 14, 16, 20, 26, 37), in which battery packaging or packs (5) are arranged, The battery recharging device (6) according to claim 11, wherein the battery packaging or pack is introduced into a suitable pedestal (18) and held in a horizontal position by a shelf (15).   The battery recharging device (6) according to claim 11, wherein the control logic (50) selects at least one battery pack (5) comprising the most charged battery (6) of the selected type.   The automatic selection and supply means includes at least one pin (91) of the emitter and at least one coil held in a stationary position by at least a first elastic element (92), the coil being a passage of current. Later, a pulling force of the pin (91) compressing the first elastic element (92) is generated, the packaging (5) is released and the packaging (5) is dropped onto the collecting surface (36). The battery recharging device (6) according to claim 11.   The at least one support element (1, 17, 51) is electrically connected to an object (94) associated with at least one third elastic member (95) by at least one elastic element (96). The battery charging device (6) according to claim 14, wherein the battery charging device (6) is suitable for contacting with at least one terminal (80) of the battery pack (5) including the battery (6).   Said battery packaging or pack (5) consists of two symmetrical shells (23, 24), which mechanically hold down the battery (6) and open the relevant terminals. The battery charger (6) according to claim 1, wherein (6) can be charged independently.   The battery charger (6) according to claim 11, wherein the battery packaging or pack (5) is stacked on top of each other corresponding to each row (13, 14, 20, 16, 26, 37). .   The automatic selection and supply means includes at least one motor (28), and rotation of the motor causes at least one pressing element to remove each battery packaging or pack (5) from the restraining elastic element (29, 43). 12. A battery charger (6) according to claim 11 which produces a movement of (27).   12. The automatic selection and ejection means comprises at least one pressing element (27B) moved by at least one belt (26B), said belt being activated by at least one motor (28B). Battery charger (6).

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